JP2004503766A - Pathology tissue collection board - Google Patents

Abstract

To prepare a sample for tissue collection having a relatively uniform thickness, the tissue collection board may include one or more tissue receiving recesses and one or more knife guides (38, 42). Features. The bottom surface of the tissue receiving recess is essentially parallel to the top of the cutting surface of the tissue collection board, and the knife guide is a pathologist's tool that ensures a cut parallel to the bottom surface of the tissue receiving recess. A knife (54) guide is formed, which creates a sample of tissue collection having a desired thickness that is uniform and reproducible.

Description

[0001]
FIELD OF THE INVENTION The present invention relates to instruments used for preparing tissue samples, and more particularly to a tissue collection board for preparing desirably uniformly thin tissue slices.
[0002]
BACKGROUND OF THE INVENTION In the field of pathology, it is common to prepare sliced tissue samples for processing, microsectioning, biomarking and histopathological analysis. The phrase “GROSSING” is mentioned in the preparation or preparation of a relatively thin tissue sample, for example of the order of 0.5 to 4 μm. This is in contrast to a microsectioning method in which an extremely thin tissue sample of about 3 to 10 μm is prepared.
[0003]
For example, when attempting to prepare relatively thin slices from various tissue samples, such as taking various specimens, as well as providing equipment to standardize the way tissue is processed, It is important that the slice thickness is absolutely uniform.
[0004]
SUMMARY OF THE INVENTION The present invention provides a tissue collection board that facilitates preparation of a tissue collection sample of a desired thickness. As an object, the present invention provides a tissue sampling board having one or more tissue receiving recesses formed therein. The recess extends downwardly from the upper portion, which is the cut surface of the tissue sampling board, and the bottom surface of the recess is parallel to the cut surface. The knife guide assembly provides a knife or dissecting scalpel guide along the surface of the tissue collection board, thereby creating a tissue collection sample of essentially uniform thickness.
[0005]
In another embodiment, the knife guide assembly features a perforated metal plate that is attached to one end of a tissue collection board, the hole having an upper end that is a cutting surface of the tissue collection board. And a metal rod or bar positioned in an inward direction relative to the perforated metal plate (eg, toward the center of the tissue collection board). A metal rod or bar is mounted slightly above the cutting surface of the tissue collection board so that the blade of the pathologist's knife can fit under it. Preferably, the tissue receiving recess is positioned between a perforated metal plate and a metal rod or bar, said rod or bar being positioned relative to the end of the tissue collection board to which the perforated metal plate is attached. Preferably, it extends parallel to the perforated metal plate.
[0006]
In another preferred embodiment, a plurality of tissue receiving recesses are provided. The different tissue receiving recesses have different depths to create different thickness tissue samples and different cross-sectional areas to accommodate different sized tissue specimens.
[0007]
Next, the present invention will be described below in more detail with reference to the accompanying drawings.
[0008]
DETAILED DESCRIPTION OF THE INVENTION Referring to FIGS. 1-4, a tissue collection board 10 according to the present invention includes a relatively flat cutting board 12 having an essentially flat cutting surface 14, and a cutting surface 5 and the sides 18, 20, 22, and 24 shown in FIG. Preferably, the cutting board is made of a non-stick material, such as polypropylene, Teflon, or other plastic material, or a material that is resistant to soiling. Any suitable material may be used as the cutting board.
[0009]
There are, for example, three tissue receiving recesses 26, which are provided in the cutting board. Each of the tissue receiving recesses forms a lower surface 28 that is essentially parallel to the cutting surface 14 and, by virtue of the surface, comprises a tissue receiving recess having an essentially uniform depth. The lower surface 28 is preferably woven, such as a perforated flat plate, a pock-like metal as used in food grades, as shown below. The purpose is to prevent the lump of tissue placed therefrom from slipping, which makes tissue collection more difficult. Desirably, the tissue receiving recesses vary from a depth of, for example, about 0.5 μm to about 4.0 μm, and each of the provided tissue receiving recesses can reduce the thickness of the tissue between the desired thickness and its thickness accuracy. Increases or changes to the desired thickness depending on the Desirably, the tissue receiving recess varies in cross-sectional area from about 25 mm every 15 mm to about 30 mm every 25 mm to accommodate most tissue samples of various sizes. Alternatively, larger or smaller recesses may be used.
[0010]
As shown in FIGS. 1-4, the tissue receiving recess is desirably formed on a surface adjacent one of the side surfaces, such as side surface 18, for example, which is the side surface of the tissue collection board. Can be described as a working aspect. The knife guide assembly 30 is provided on a cutting board near the working side. In particular, a support plate 32, made of flat metal (preferably stainless steel), is held to the cutting surface of the cutting board by means such as fasteners 34, such as screws. When collecting a tissue sample, the support plate has a surface that supports a knife or scalpel for collecting tissue. The upper surface of the support plate is flush with the cutting surface of the cutting board, said cutting board being formed by having a hollow 35 into which the support plate 32 fits. The tissue receiving recess 26 is formed by a cutout 36, which is a square or rectangular opening extending at least partially through the support plate and formed in the cut surface. It is generally congruent with the tissue receiving recess 26.
[0011]
The first knife guide 38 is attached to the working side of the tissue collection board by means such as a fastener 40, such as a screw. In one embodiment, the first knife guide 38 is formed from flat stainless steel and has a row of slits 42 (or otherwise a single slit) in the guide. The slit 42 is positioned generally at the same height as the cutting surface 14 of the cutting board 12 as shown in FIG. The slit 42 is preferably slightly thicker than a typical dissection or tissue collection knife used to prepare the sample for tissue collection.
[0012]
The second knife guide 44 is attached to the tissue sampling board at a distance from the first knife guide 38, said guide 44 extending parallel to the first knife guide 38. Is desirable. In particular, the second knife guide is preferably a stainless steel bar or rod, and is structured such that a gap is formed between the top surface of the support plate 32 and the bottom of the metal bar or lot to receive the knife blade. It is fixed slightly above the sampling board. Means such as shims or spacers (such as washers provided around attached bolts) located between the support plate and the bar or rod may be effective in forming the gap. unknown.
[0013]
In other embodiments, the first knife guide 38 is, for example, located slightly above the surface of the support plate and shaped like the second knife guide 44 to form a knife receiving gap below it. It is also possible to provide a customized bar or rod. Furthermore, the present invention provides a single knife guide mounted at or near the working side of the cutting board and mounted like the first knife guide described above or the second knife guide inside it. It would be possible to work with departments.
[0014]
A removable insert 48 is provided on the cut surface of the tissue collection board, which fits into a bore 50 formed by milling or the like. In an embodiment as shown in FIG. 6 represented in more detail below, an additional insert 48 ′ and a hollow 50 ′ may be provided. An additional insert 48 ′ is positioned off-center with respect to the cut-off board 12 between the insert 48 and the side surface 20. Other arrangements for inserts 48 and 48 ', as well as additional inserts, are possible. The insert may be made of cork, rubber, dental paraffin wax or any other suitable material that is softer than the cut board material. Preferably, the upper surface of the insert is flush with the cut surface of the cut board. The insert is provided with a convenient surface so that a smaller sample can be cut from the specimen tissue mass. And because it's made of a much softer material than the cutting board's plastic material, it's faster for the pathologist's knife to blunt the blade from the tissue cut to the cutting board than to the insert from the tissue cut. .
[0015]
The method of using the tissue sampling board according to the present invention is shown in FIGS. In particular, when the pathologist once cuts a smaller proportion of the tissue mass, for example, about 1.0 cm x 1.0 cm x 0.5 cm, they place the small tissue sample in the selected tissue receiving recess. 2 and FIG. 3 to ensure that the tissue is held down, preferably by using a clear acrylic tissue hold-down 52 (acrylic that is so clear that the sample can be seen through the hold-down). The pathologist inserts the blade of the tissue sampling knife 54 through a suitable slit or slit 42 in the first knife guide 38 and the lower part of the second knife guide and the upper part of the support plate 32 The tissue sample is cut as shown in FIG. 3 by inserting the knife through the gap formed therebetween and pulling the knife back and forth below the foot of the tissue retainer 52 for a smooth, flat cut. This creates a relatively flat surface parallel to the bottom surface of the tissue sample held in the lower surface 28 of the tissue receiving recess. By such an approach, a tissue sample of tissue collection having a uniform desired thickness is provided.
[0016]
If a pathologist, especially a skilled person, would be able to perform such a procedure without using a tissue hold-down as shown in FIG. For example, when a thinner tissue sampling operation such as peeling off from the upper surface of a tissue sample is performed, and when there is a tissue that is substantially thinner than the thickness of the tissue pressed by the tissue holder, the tissue is collected. If the sample is already relatively thin, the above procedure may be completed.
[0017]
According to other embodiments shown in FIGS. 6 and 7, the depth of individual tissue receiving recesses 126 may be adjustable. As shown in particular in FIG. 7, the tissue sampling board may include an adjustable insert 166 disposed within the bore 136. As shown in FIG. 7, the insertion member 166 includes an individually supported elevating portion 168 and a columnar portion 170 extending from a lower portion of the elevating portion 168. The hollow portion 136 has a first rectangular groove 172 that fits into the supported elevating portion 168 without any gap, and has a stepped shape having a cylindrical hole portion 174 that fits into a cylindrical portion. The female screw portion 176 extends between the bottom surface 115 of the cutout board 112 and the bottom surface 178 of the hole 174 having no gap. For example, a screw member 180 such as a bolt is screwed into the female screw portion 176 so as to abut and support the bottom surface 182 of the insertion member 166. In this manner, the vertical direction of the insert 166 relative to the cutting surface 114 is changed by rotating the screw member 180 to raise or lower the insert 166 within the bore 136. Also, as previously described, the screw member 180 may be a bolt or may have a knob or the like with a texture that can be manually adjusted by a pathologist.
[0018]
Other tissue collection board embodiments, such as those shown in FIGS. 8-11, allow the depth of the recess 226 to be adjusted. In particular, the finger wheel 284 is used to raise or lower the insertion member 266. The finger wheel portion 284 is contained within the pocket 200, which is substantially formed in the cut-out board 212, is a rectangular groove formed in the side surface 218, and has a female screw 286 in the center. As shown in FIGS. 8, 10 and 11, a rectangular slot 102 is formed in the first knife guide 38 so that the finger wheel 284 can extend to the guide 38. . The finger wheel 284 is provided with irregularities (as shown in FIG. 11) or ribs arranged at intervals in the circumferential direction on the outer peripheral edge so that the finger wheel 284 can be manually operated. Preferably, it is formed.
[0019]
The screw member 288 extends through the female screw portion 286. The thread 288 includes a threaded bar 290 that engages the female thread 286 and includes a support 292 having a non-circular key structure at the top. In the above-described embodiment, the hollow portion 236 has a stepped shape including the first groove 294 and the cylindrical hole 296, and the elevating portion 268 of the insertion member fits in the first groove 294. Then, in the cylindrical hole 296, the column member 270 of the insertion member is fitted. Further, the hollow portion 236 includes a non-circular opening 298, the outer shape of which is fitted by making the upper portion 292 of the screw member 288 non-circular so that it can be received in the hollow portion in a key shape. Combine. The non-circular opening 298 and the upper portion 292 of the screw portion 288 mesh with each other so that the screw portion 288 does not rotate relative to the cutting board 112. A portion 288 of the screw member extending down through the finger wheel 184 is located in a hole 204 (smaller cross-section than the pocket 200) extending between the pocket 200 and the lower surface 215 of the cutting board 212. ing.
[0020]
When the finger wheel 284 is rotated, since the non-cylindrical opening 298 and the upper part 292 of the screw member 288 have a key structure, the screw member 288 is prevented from rotating relative to the cutout board 212. Can be Therefore, the finger wheel 284 rotates relative to the screw member 288, which moves vertically and raises or lowers the insertion member 266. Therefore, the depth of the recess 226 can be easily adjusted by the pathologist by the rotation of the finger wheel 284.
[0021]
Another feature of the present invention is illustrated in FIGS. 10 and 10A. As shown, the outer end 416 of the support plate 232 has an inclined portion 418 formed therein. Inclined portion 418 is positioned within outer end 416 and is inclined with respect to tissue receiving recess 226. The ramp 418 may include a ramp or chamfer formed in the outer end 416 to provide a blade insert through the corresponding slit 42.
[0022]
Another embodiment of the tissue sampling board according to the present invention is shown in FIGS. In this embodiment, the threaded portion 306 includes a complete finger wheel portion 308. The groove 310 is provided in the lower surface 315 of the cutting board 312, and the finger ring portion 308 of the screw member 306 is arranged in the groove 310 in the cutting board 312. The insertion member 366 fits into the hollow portion 336. The female screw portion 312 extends between the hollow portion 336 and the groove 310. The screw portion 314 of the screw member 306 extends while being screwed through the female screw portion 312. Referring to the embodiment shown in FIGS. 8, 10 and 11, the finger wheel 308 may have irregularities on the outer edge or every other finger to provide for manual adjustment of the finger wheel 308. A rib may be provided.
[0023]
The end of the screw member 306 on the opposite side of the finger ring portion 308 abuts and supports the bottom surface 382 of the insertion member 366. When the finger ring portion 308 rotates, the insertion member 366 is raised or lowered by the screw member 306.
[0024]
Other embodiments of the invention will be apparent to those skilled in the art. These and other embodiments are considered to be within the scope of the following claims.
[Brief description of the drawings]
FIG. 1 is a perspective view of a first embodiment of a tissue sampling board according to the present invention.
FIG. 2 is a perspective view of a first embodiment of a tissue sampling board according to the present invention.
FIG. 3 is a perspective view of a first embodiment of a tissue sampling board according to the present invention.
FIG. 4 is a perspective view of a first embodiment of a tissue sampling board according to the present invention.
FIG. 5 is a working side view of the tissue collection board shown in FIGS. 1-4.
FIG. 6 is a plan view of another embodiment of the tissue sampling board according to the present invention.
FIG. 7 is a cross-sectional view taken along line 7-7 shown in FIG.
FIG. 8 is a plan view of still another embodiment of the tissue sampling board according to the present invention.
9 is a cross-sectional view taken along line 9-9 shown in FIG.
FIG. 10 is a detailed plan view of the tissue receiving recess shown in FIG. 8; FIG. 10A is a cross-sectional view taken along line 10A-10A shown in FIG.
11 is an enlarged side view of a tissue receiving recess of the tissue sampling board shown in FIG. 10;
FIG. 12 is a plan view of still another embodiment of the tissue sampling board according to the present invention.
FIG. 13 is a cross-sectional view taken along line 13-13 shown in FIG.
[Explanation of symbols]
Reference Signs List 10 Tissue sampling board 12 Cutting board 14 Cutting surface 26 Tissue receiving recess 30 Support plate 38 First knife guide 44 Second knife guide 48 Insert 52 Tissue holder 54 Tissue sampling knife

Claims (17)

A tissue collection board for preparing a tissue sample, wherein the tissue collection board comprises:
A cutting board having a cutting surface at the top,
Tissue formed in the cutting board, extending downwardly from the upper cutting surface of the cutting board, and having a lower portion of a tissue receiving surface that is essentially parallel to the upper cutting surface of the cutting board. A receiving recess,
In order to create an essentially parallel tissue incision from one sample to another to create a tissue sample of essentially uniform, reproducible tissue collection thickness, the cutting board is At least one knife guide mounted and configured to receive a blade of a tissue cutting knife, and shaped such that the blade is generally retained on the cutting surface of the cutting board at the top. When,
A tissue sampling board comprising: The tissue sampling board according to claim 1, wherein a depth of the tissue receiving recess is adjustable. 3. The tissue of claim 2, comprising a movable insertion member disposed within the tissue receiving recess, wherein an upper surface of the insertion member forms a lower portion of the tissue receiving surface of the tissue receiving recess. Sampling board. A screw member for supporting the movable insertion member, wherein the screw member raises the movable insertion member in the tissue receiving recess to reduce the depth of the tissue receiving recess, and moves the movable insertion member in the tissue receiving recess. The tissue sampling board according to claim 3, wherein the movable insertion member is lowered or allowed to lower in order to increase the depth of the recess. The screw member is disposed within the cutting board and is rotatable relative to the cutting board, and rotation of the screw member relative to the cutting board causes the screw member to move in an axial or translational direction. The tissue collection board according to claim 4, wherein the board is movable. The screw member is formed of a bolt capable of contacting the cutting board so as to rotate with respect to a surface of the cutting board facing the upper surface, which is the cutting surface of the cutting board. 6. The tissue sampling board according to 5. The threaded member has a threaded rod and a fixedly connected finger wheel by means such that the threaded rod rotates relative to the cutting board. The tissue sampling board according to claim 5, characterized in that: The screw member is fitted in relation to the cutting board, and the tissue sampling board includes a finger wheel that the screw member penetrates in a screw engagement state with the screw member. The finger member is rotatable relative to the cutting board, and the screw member moves in an axial direction or a translational direction relative to the cutting board by rotation of the finger wheel relative to the screw member. The tissue collection board according to claim 4, wherein At least one of the knife guides includes a plate mounted on a working side of the cutting board, wherein the plate is a plate extending above a cutting surface of the cutting board, formed in the plate, and wherein the cutting is performed. A plate having a knife receiving slit extending generally parallel to the surface, said knife receiving slit defining a gap through which a tissue cutting knife can be overlaid and penetrated relative to a cutting surface of the cutting board. The tissue collection board according to claim 1, wherein the tissue collection board is arranged so as to form. At least one of the knife guides has a rail member mounted parallel to the cutting board and in a spaced relationship with a cutting surface of the cutting board, wherein the tissue cutting knife is positioned relative to the cutting surface of the cutting board. 2. The tissue harvester of claim 1, wherein the rail member is spaced from a cutting surface of a cutting board according to a gap amount defining a gap that can be pierced and overlapped. board. A support plate is mounted in a plate receiving recess formed in the cutout board, the support plate having an upwardly facing surface formed in the cutout surface and a hole formed in the support plate. The tissue sampling board according to claim 1, wherein the hole portion is a wall surface surrounding a tissue receiving recess. At least one of the knife guides comprises a plate mounted on a working side of the cutting board, the plate being a plate extending above a cutting surface of the cutting board, formed in the plate, and wherein the cutting is performed. A plate having a knife receiving slit extending generally parallel to a surface, said knife receiving slit defining a gap through which a tissue cutting knife can be overlaid and penetrated relative to a cutting surface of the cutting board. It is an arrangement that forms
The support plate is mounted in a plate receiving recess formed in the cutout board, the support plate having an upwardly facing surface formed in the cutout surface, and a hole formed in the support plate. Having a wall surface surrounding the receiving recess of the tissue,
The support plate has a chamfer or a ramp to provide a receiving port for the knife through a knife receiving slit.
The tissue collection board according to claim 1, wherein: The tissue collection board according to claim 1, comprising a plurality of tissue receiving recesses. 14. The tissue sampling board according to claim 13, wherein the plurality of tissue receiving recesses have different depths. 14. The tissue sampling board according to claim 13, wherein the plurality of tissue receiving recesses have different lengths and different widths. At least one insert made of a material softer than the cut board, wherein at least one insert is arranged to fit into at least one insert receiving recess in the cut board. The tissue sampling board according to claim 1, wherein: 17. The tissue collection board according to claim 16, wherein at least one of the inserts is formed from cork.

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